Visible to Intel only — GUID: GUID-7968023F-69F1-4E45-BCD1-D4161A26740B
Visible to Intel only — GUID: GUID-7968023F-69F1-4E45-BCD1-D4161A26740B
mkl_sparse_sp2m
Computes the product of two sparse matrices. The result is stored in a newly allocated sparse matrix.
stat = mkl_sparse_sp2m (opA, descrA, A, opB, descrB, B, request, C)
- mkl_spblas.f90
The mkl_sparse_sp2m routine performs a matrix-matrix operation:
C := opA(A) *opB(B)
where A,B, and C are sparse matrices, opA and opB are matrix modifiers for matrices A and B, respectively.
The column indices of the output matrix (if in CSR format) can appear unsorted due to the algorithm chosen internally. To ensure sorted column indices (if that is important), call mkl_sparse_order().
- opA
-
C_INT.
Specifies operation on input matrix.
SPARSE_OPERATION_NON_TRANSPOSE Non-transpose, op(A)=A
SPARSE_OPERATION_TRANSPOSE Transpose, op(A)=AT
SPARSE_OPERATION_CONJUGATE_TRANSPOSE Conjugate transpose, op(A)=AH
- opB
-
C_INT.
Specifies operation on input matrix.
SPARSE_OPERATION_NON_TRANSPOSE Non-transpose, op(B)=B
SPARSE_OPERATION_TRANSPOSE Transpose, op(B)=BT
SPARSE_OPERATION_CONJUGATE_TRANSPOSE Conjugate transpose, op(B)=BH
- descrA
-
MATRIX_DESCR.
Structure that specifies sparse matrix properties.
NOTE:Currently, only SPARSE_MATRIX_TYPE_GENERAL is supported.sparse_matrix_type_ttype specifies the type of sparse matrix.
SPARSE_MATRIX_TYPE_GENERAL The matrix is processed as is.
SPARSE_MATRIX_TYPE_SYMMETRIC The matrix is symmetric (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_HERMITIAN The matrix is Hermitian (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_TRIANGULAR The matrix is triangular (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_DIAGONAL The matrix is diagonal (only diagonal elements are processed).
SPARSE_MATRIX_TYPE_BLOCK_TRIANGULAR The matrix is block-triangular (only the requested triangle is processed). This applies to BSR format only.
SPARSE_MATRIX_TYPE_BLOCK_DIAGONAL The matrix is block-diagonal (only the requested triangle is processed). This applies to BSR format only.
sparse_fill_mode_tmode specifies the triangular matrix portion for symmetric, Hermitian, triangular, and block-triangular matrices.
SPARSE_FILL_MODE_LOWER The lower triangular matrix is processed.
SPARSE_FILL_MODE_UPPER The upper triangular matrix is processed.
sparse_diag_type_tdiag specifies the type of diagonal for non-general matrices.
SPARSE_DIAG_NON_UNIT Diagonal elements must not be equal to 1.
SPARSE_DIAG_UNIT Diagonal elements are equal to 1.
- descrB
-
C_INT.
Structure that specifies sparse matrix properties.
NOTE:Currently, only SPARSE_MATRIX_TYPE_GENERAL is supported.sparse_matrix_type_ttype specifies the type of sparse matrix.
SPARSE_MATRIX_TYPE_GENERAL The matrix is processed as is.
SPARSE_MATRIX_TYPE_SYMMETRIC The matrix is symmetric (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_HERMITIAN The matrix is Hermitian (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_TRIANGULAR The matrix is triangular (only the requested triangle is processed).
SPARSE_MATRIX_TYPE_DIAGONAL The matrix is diagonal (only diagonal elements are processed).
SPARSE_MATRIX_TYPE_BLOCK_TRIANGULAR The matrix is block-triangular (only the requested triangle is processed). This applies to BSR format only.
SPARSE_MATRIX_TYPE_BLOCK_DIAGONAL The matrix is block-diagonal (only the requested triangle is processed). This applies to BSR format only.
sparse_fill_mode_tmode specifies the triangular matrix portion for symmetric, Hermitian, triangular, and block-triangular matrices.
SPARSE_FILL_MODE_LOWER The lower triangular matrix is processed.
SPARSE_FILL_MODE_UPPER The upper triangular matrix is processed.
sparse_diag_type_tdiag specifies the type of diagonal for non-general matrices.
SPARSE_DIAG_NON_UNIT Diagonal elements must not be equal to 1.
SPARSE_DIAG_UNIT Diagonal elements are equal to 1.
- A
-
SPARSE_MATRIX_T.
Handle which contains the sparse matrix A.
- B
-
SPARSE_MATRIX_T.
Handle which contains the sparse matrix B.
- request
-
C_INT.
Specifies whether the full computations are performed at once or using the two-stage algorithm. See Two-stage Algorithm for Inspector-executor Sparse BLAS Routines.
SPARSE_STAGE_NNZ_COUNT Only rowIndex (BSR/CSR format) or colIndex (CSC format) array of the matrix is computed internally. The computation can be extracted to measure the memory required for full operation. SPARSE_STAGE_FINALIZE_MULT_NO_VAL Finalize computations of the matrix structure (values will not be computed). Use only after the call with SPARSE_STAGE_NNZ_COUNT parameter. SPARSE_STAGE_FINALIZE_MULT Finalize computation. Can also be used when the matrix structure remains unchanged and only values of the resulting matrix C need to be recomputed. SPARSE_STAGE_FULL_MULT_NO_VAL Perform computations of the matrix structure. SPARSE_STAGE_FULL_MULT Perform the entire computation in a single step.
- C
-
SPARSE_MATRIX_T.
Handle which contains the resulting sparse matrix.
- stat
-
INTEGER.
Value indicating whether the operation was successful or not, and why:
SPARSE_STATUS_SUCCESS The operation was successful.
SPARSE_STATUS_NOT_INITIALIZED The routine encountered an empty handle or matrix array.
SPARSE_STATUS_ALLOC_FAILED Internal memory allocation failed.
SPARSE_STATUS_INVALID_VALUE The input parameters contain an invalid value.
SPARSE_STATUS_EXECUTION_FAILED Execution failed.
SPARSE_STATUS_INTERNAL_ERROR An error in algorithm implementation occurred.
SPARSE_STATUS_NOT_SUPPORTED The requested operation is not supported.